KR20160003183U - Cable assembly with connector and connector assembly - Google Patents

Abstract

A cable assembly having a connector includes a housing having a mating connector facing portion provided on a front side portion and a cable portion provided on a rear side portion on which a cable opening is formed; a housing provided on a mating connector facing portion of the housing, A cable disposed in the housing and electrically connected to the contact through the cable opening, a rear plate disposed on the cable portion on the rear side of the housing and aligned with the cable opening, and a front side portion of the housing, And the housing is disposed between the rear plate and the front plate, and the front plate is supported by at least one fixing member extending in the front-rear direction in the housing And fixed to the back plate.

Description

≪ Desc / Clms Page number 1 > CABLE ASSEMBLY WITH CONNECTOR AND CONNECTOR ASSEMBLY <

One aspect of the present invention relates to a cable assembly and a connector assembly with a connector.

In Patent Document 1, a cable assembly having a connector is disclosed, which includes a housing, a conductive contact provided on a front side of a housing that can be fastened to the contact of the corresponding connector, and a conductive contact provided on the rear side of the housing, And a cable to be connected. A screw member is provided on each side of the housing of the cable assembly with the connector for engagement with the corresponding mating side connector.

Japanese Unexamined Patent Application Publication No. 2006-202679

In the cable assembly with the connector as described above, leakage of electromagnetic waves in the circumferential direction of the housing can be suppressed by covering with the housing. On the other hand, there is a possibility that the electromagnetic wave leaks from the front side of the housing where the contactor is provided. Therefore, more reliable suppression of leakage of electromagnetic waves from the housing has been desired.

A cable assembly with a connector according to one aspect of the present invention includes a housing having a mating connector facing portion provided on the front side and a cable portion provided on a rear side portion on which the cable opening is formed, A cable disposed in the housing through the cable opening and electrically connected to the contact, and a rear surface disposed on the cable portion on the rear side of the housing and aligned with the cable opening, And a front plate disposed on the mating connector facing portion on the front side portion of the housing and surrounding the front portion of the housing, wherein the housing is interposed between the rear plate and the front plate, and the front plate extends in the front- And is fixed to the rear plate by at least one fixing member.

In this aspect, the front plate is disposed on the mating connector facing portion of the front side of the housing and surrounds the front side of the housing. Further, the housing is interposed between the rear plate and the front plate, and the rear plate is fixed to the front plate by at least one fixing member extending in the front-rear direction in the housing. Thus, within the housing, the mating connector facing side portion to which the contact is provided can be completely covered by the face plate. Further, the front plate can be fixed by the back plate and the fixing member. With the above-described configuration, leakage of the electromagnetic wave from the housing can be more reliably suppressed.

According to one aspect of the present invention, leakage of electromagnetic waves from the housing can be more reliably suppressed.

1 is a perspective view of a cable assembly and connector assembly with a connector according to one embodiment.
2 is an exploded perspective view of a cable assembly and connector assembly with a connector according to one embodiment.
3 is an exploded perspective view of a cable assembly and connector assembly with a connector according to one embodiment.
4 is a partial cross-sectional view of a cable assembly and connector assembly with a connector according to one embodiment.
5 is a plan view illustrating a connector assembly and a connector assembly connected to a cable assembly having a cable assembly and a connector having other connectors according to the present invention;
6 is an enlarged view of the front plate.
7 is a diagram illustrating a back plate of a cable assembly and connector assembly with a connector assembly according to an alternate embodiment;

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. In the following description, it is to be noted that the same or equivalent elements will be given the same reference numerals, and redundant descriptions will be omitted. In addition, the terms [X-axis direction], [Y-axis direction] and [Z-axis direction] are based on the illustrated direction and are for convenience.

1 to 4, a cable assembly 100 with a connector includes a housing 2, a contact 3, a cable 4, a back plate 6, a front plate 7, (Fixing member) 8. Among them, the connector assembly 10 is composed of the housing 2, the contactor 3, the back plate 6, the front plate 7 and the screw member 8. A cable assembly 100 with a connector according to an embodiment of the present invention is for electrically connecting similar cables by fastening them to other connector assemblies of the connector assembly 200 (see FIG. 5) of the corresponding mating side. The use of the cable assembly 100 having the connector according to the embodiment of the present invention is not particularly limited, but it can be applied to a cable for electrically connecting the camera of the substrate inspection apparatus to the calculation unit as an example. The cable assembly 100 with a connector is particularly suitable for use in an apparatus that handles high frequency wave signals.

The description herein provides a standard in which the cable 4 extends in the horizontal direction and one main surface 2a of the housing 2 is arranged on the upper side and the other main surface 2b is arranged on the lower side (The state illustrated in FIG. 1). However, when using the cable assembly 100 with a connector, the orientation is not limited. Further, for convenience of explanation, an XYZ coordinate system will be established for the cable assembly 100 with a connector. The "X-axis direction" and the "Y-axis direction" are defined as planes crossing each other at right angles to the horizontal direction, and the "Z-axis direction" is defined as a plane intersecting the X- In the claims, the "front and back direction" corresponds to the Y axis direction, the "front side" corresponds to the Y axis positive side, and the "rear side" corresponds to the Y axis direction negative side. Further, in the claims, the "lateral side" corresponds to the X-axis positive side or the X-axis negative side. The side facing the main surface 2a and 2b of the housing 2 is in the Z axis direction and the side on which the main surface 2a is disposed is the side facing the positive Z axis direction, Z-axis negative side. Also, unless stated otherwise, the following description is based on the assembled state of the cable assembly 100 with the connector (i.e., the state of FIG. 1).

The housing 2 is a member for protecting a portion where the contactor 3 and the cable 4 are electrically connected to each other and received therein. The housing 2 has a flat cube shape and has main surfaces 2a and 2b facing each other in the Z axis direction and a housing front surface portion 2c and a housing back surface portion 2d facing each other in the Y axis direction, And side surfaces 2e and 2f facing the X axis direction opposite to each other. The housing front portion 2c is formed on the front side portion (the Y-axis direction positive side) of the housing 2 and the housing rear portion 2d is formed on the rear side portion (Y-axis direction negative side) of the housing . The side surface 2e is formed on one lateral side (the positive side of the X-axis direction), and the side surface 2f is formed on the other lateral side (the negative side of the X-axis direction). The housing 2 has a mating connector facing portion 11 provided on the front side portion, a cable portion 12 provided on the rear side portion and lateral side portions 13 and 14 provided on the lateral side portions. The connecting portion of the contact 3 and the cable 4 is accommodated in the housing 2.

The mating connector facing portion 11 is formed on the side of the housing front portion 2c of the housing 2 and is a portion for interlocking with another mating connector facing portion. An opening is formed in the mating connector facing portion 11 so that the contactor 3 arranged inside the housing 2 can protrude to the outside. The opening is formed at a substantially central position of the housing front portion 2c. The cable portion 12 is formed on the housing rear portion 2d of the housing 2 and is a portion for engagement with the distal end portion of the cable 4. The cable opening 12a (see FIG. 3) is formed on the cable portion 12 to pull out the cable 4 disposed in the inner space. The cable opening 12a is formed at a substantially central position of the housing rear portion 2d. The lateral side portions 13 and 14 are formed on the side surfaces 2e and 2f of the housing 2 and are portions for allowing the insertion of the screw member 8. The lateral side openings 13a and 14a are formed on the lateral sides 13 and 14 so that the screw member 8 can be inserted. The lateral side openings 13a and 14a are cylindrical through holes for passing in the forward and backward directions between the housing front portion 2c and the housing rear portion 2d of the housing 2. [ A through hole is not required if the lateral side openings 13a and 14a pass between the housing front portion 2c and the housing rear portion 2d and the groove portions etc. opened to the side surfaces 2e and 2f May be used.

4, a contact 3 is provided on the mating connector facing portion 11 of the housing 2, which contacts the contact 53 (FIG. 4) of the cable assembly 200 with the corresponding mating side connector See Fig. 5). The contacts 3 are fastened to a cable assembly 200 having a plurality of terminal portions 22 (see FIG. 4) connected to a plurality of individually insulated wires of the cable 4 and a connector on the corresponding mating side, (21). The fastening portion 21 protrudes forward from the mating connector facing portion 11 of the housing 2 through the opening on the housing 2. The fastening portion 21 is fastened to the fastening portion of the contact 53 of the cable assembly 200 with the corresponding connector. The cable 4 is drawn out of the cable portion 12 through the cable opening 12a from the interior portion of the housing 2. The plurality of terminal portions 22 of the contacts 3 are each electrically connected to a corresponding contact on a cable assembly 200 with a connector. Each of the individually insulated wires of the cable 4 is thereby electrically connected to each of the individual insulated wires of the cable 54 of the cable assembly 200 with the connector.

In this embodiment, the housing 2 is formed by overmolding. In other words, the housing 2 is formed by resin molding that accommodates the cable 4 and the contactor 3 electrically connected together. Specifically, after the cable 4 and the contactor 3 are connected, the primary molding is then performed with the resin. Thereafter, the entire periphery of the main body is wrapped within the conductive tape except for the front and rear surfaces of the primary molding. Thereafter, the housing 2 is formed in a manner of wrapping with a conductive tape (secondary molding). When formed by such an overmold, it is suitable for thermoplastic resins such as polyvinyl chloride (PVC), polyamide, polyurethane, Santoprene, polybutylene terephthalate (PBT), etc. as a resin for the housing 2 Do.

The rear plate 6 disposed on the cable portion 12 on the housing rear portion 2d of the housing 2 is a member for aligning the shape of the housing rear portion 2d and the cable opening 12a. The rear plate 6 has a central portion 6A formed at a central position in the X-axis direction, a lateral side portion 6B formed to protrude from the central portion 6A toward the positive side in the X- And a lateral side portion 6C formed to protrude from the side of the side portion 6C. Further, a lateral opening 6b, 6c formed on both lateral sides of the central opening 6a and a central opening 6a aligned with the cable opening 12a are formed on the rear plate 6 . The central opening 6a is a through hole formed in the central portion 6A communicating with the cable opening 12a so that the cable 4 can pass through. The lateral side openings 6b and 6c are formed on lateral side portions 6B and 6C which respectively communicate with the lateral side openings 13a and 14a on the housing 2 in order to allow the threaded member 8 to pass therethrough Hole. During assembly, the back plate 6 contacts the housing rear portion 2d on the housing 2. It should be noted that the central opening 6a and the lateral side openings 6b and 6c may not be through holes and may be formed by providing notches at the outer edge portions of the back plate 6. [

The front plate 7 is disposed on the mating connector facing portion 11 of the housing front portion 2c of the housing 2 and is a member for surrounding the housing front portion 2c. The outer shape of the front plate 7 is substantially the same shape as the outer shape of the housing front portion 2c when viewed from the Y-axis direction. However, the external shape of the front plate 7 may be different from the external shape of the housing front portion 2c or the shape or size. The front side plate 7 is formed with the lateral side openings 7b and 7c and the center opening 7a aligned with the contactor 3 respectively formed on both the lateral sides of the center opening 7a. The central opening 7a is formed in a shape surrounding the fastening portion 21 of the contact 3 and passing through the fastening portion 21. [ The lateral side openings 7b and 7c are located at the edges of the lateral sides of the central opening 7a so that the respective communication for the lateral side openings 13a and 14a of the housing 2 can pass therethrough, Is a penetrating portion formed by cutting out portions. It should be noted that the shape of the lateral side openings 7b, 7c will be described later in conjunction with the structure of the screw member 8. During assembly, the front plate 7 contacts the housing front portion 2c of the housing 2. It should be noted that the central opening 7a and the lateral side openings 7b and 7c may not be through holes and may be formed by providing notches at the outer edge portion of the front plate 7. [ However, in order to shield the electromagnetic wave on the side of the housing front portion 2c, it is preferable that the entire periphery of the front plate 7 completely covers the housing front portion 2c without any clearance. However, it is not essential that the front plate 7 completely cover the housing front portion 2c, but it may have a portion that is not partially covered.

The screw member 8 extending in the front-rear direction of the housing 2 is a member for fixing the front plate 7 to the rear plate 6. [ The screw member 8 has a cap portion 8A, a rotation stop portion 8D, a hook-up portion 8C and a rear end portion 8B in this order from front to back.

The cap portion 8A is a cylindrical member provided on the front end side of the screw member 8 and having a female screw portion 8a formed on the inner peripheral surface. The cap portion 8A is open at the front end side and can accommodate the male threaded portion 58a of the screw member 58 of the cable assembly 200 with the corresponding mating side connector (see Figure 5) . The cap portion 8A and the female screw portion 8a are outside the housing 2 and project from the front plate 7 to the front side.

The rear end portion 8B is provided on the rear end side of the screw member 8 and is a portion provided with a female screw portion 8c formed on the outer peripheral surface. The rear end portion 8B is outside the housing 2 and protrudes from the rear plate 6 to the rear side. The nut 16 is fastened to the male threaded portion 8c of the rear end portion 8B. Two of the nuts 16 are fastened (known as a double nut), whereby the screw member 8 is prevented from being loosened.

The rotation stopping portion 8D is formed on the rear end portion of the cap portion 8A. At least one portion of the rotation stopping portion 8D is disposed inside the lateral side openings 7b, 7c of the front plate 7. The rotation stopping portion 8D faces the edge portions on the both side portions in the Z axis direction of the side opening portions 7b and 7c and has a receiving surface 8b for preventing rotation of the screw member 8 through contact Respectively. The receiving surface 8b is formed by cutting out a part of the peripheral surface of the cylindrical body into a planar shape. The receiving surface 8b is formed on both the positive side and the negative side in the Z-axis direction in parallel with each other.

The hook-up portion 8C is a portion that joins the cap portion 8A having the rear end portion 8B having the male screw portion 8c and the female screw portion 8a. The rotation stopping portion 8D is disposed between the hook-up portion 8C and the cap portion 8A. At least a portion of the hook-up portion 8C is disposed on the inner portion of the housing 2, in other words, in the side lateral openings 13a, 14a.

The dimensional relationship between each part of the screw member 8 and the lateral side opening 7b is described herein with reference to Fig. It should be noted that the dimensional relationship between each part of the screw member 8 and the lateral side opening 7c is essentially the same as that of the lateral side opening 7b so that the description thereof is omitted.

As illustrated in Fig. 6, the central opening 7a has an edge portion 37 extending in the Z-axis direction and edge portions 34, 36 extending in the X-axis direction. The lateral side opening 7b is formed to extend from the edge portion 37 of the central opening 7a toward the positive side in the X-axis direction. The lateral side opening 7b has an edge portion 33 extending in the Z-axis direction and edge portions 31 and 32 extending in the X-axis direction. The edge portion 31 of the lateral side opening 7b is disposed on the side of the Z axis direction sound more than the edge portion 34 of the center opening 7a. The edge portion 32 of the lateral side opening 7b is disposed on the Z axis positive side more than the edge portion 36 of the central opening 7a. The edge portion 33 of the lateral side opening 7b is disposed on the X-axis direction positive side more than the edge portion 37 of the center opening 7a.

The dimension L1 in the Z-axis direction between the edge portion 31 and the edge portion 32 of the lateral side opening 7b is larger than the diameter of the rear end portion 8B and the hook-up portion 8c. Thereby, the lateral side opening 7b can be inserted through the hook-up portion 8c and the rear end portion 8b of the screw member 8. The dimension L1 is larger than the dimension in the Z-axis direction between the receiving surface 8b of the rotation stopping portion 8D. On the other hand, the dimension L1 is smaller than the diameter of the arcuate surface 8d other than the receiving surface 8b of the rotation stopping portion 8D. The receiving surface 8b thus interferes with the edge portions 31 and 32 and therefore the threaded portion 8b is in contact with the threaded portion 8b when there is an attempt to rotate the rotation stop 8D while being disposed inside the lateral side opening 7b ). The dimension L1 is smaller than the diameter of the cap portion 8A. Thus, the cap portion 8A can not pass through the lateral side opening 7b due to the contact between the edge portions 31, 32 and the rear end surface. Thereby, the cap portion 8A can suppress the vicinity of the lateral side portion 7b of the front plate 7 with respect to the housing 2 from the rear side portion. The dimension L2 in the X-axis direction between the edge portion 37 and the edge portion 33 is smaller than the dimension L2 in the X-axis direction between the rear end portion 8B, the hook-up portion 8C and the rotation stopping portion 8D of the screw member 8 It should be noted that the size should be maintained in a range that does not exceed It should be noted that the lateral side openings 7b are joined to the central openings 7a and are formed as integral through holes but that the lateral side openings 7b and the central openings 7a may be through holes independent of each other do. In other words, the lateral side opening 7b and the central opening 7a can be positioned as part of the edge portion 37.

By having such a configuration as described above, the housing 2 is interposed between the rear plate 6 and the front plate 7. [ A pair of screw members 8 pass through the lateral side openings 7b and 7c formed at the corresponding positions of the front plate 7 and the corresponding positions (lateral side portions 13 and 14) And passes through the side lateral openings 13a and 14a formed in the rear side plate 6 and through the side lateral openings 6b and 6c formed in the corresponding positions of the rear side plates 6 8A is disposed on the front side of the front plate 7 and at least a part of the rotation stopping portion 8D is disposed inside the lateral side openings 7b and 7c and at least a part of the hook- And at least a part of the rear end portion 8B is disposed on the rear side more than the rear plate 6. In this state, The screw portion 8c is fixed by the nut 16. This allows the front plate 7 to be screwed into the housing 2 through the screw member 8 extending in the front- The cap portion 8A of the screw member 8 can be brought into a state in which the front plate 7 presses against the housing 2. Therefore, The housing 2, the back plate 6 and the screw member 8 are both fixed to each other with sufficient strength. The rotation of the screw member 8 is transmitted to the rotation stopper (not shown) disposed in the lateral side openings 7b and 7c 8D.

As described above, a cable assembly with a connector according to an aspect of the present invention includes a housing having a mating connector facing portion provided on a front side portion and a cable portion provided on a rear side portion on which a cable opening is formed, A conductive contact disposed on the mating connector facing portion and engageable with a contact of the mating connector; a cable disposed within the housing through the cable opening and electrically connected to the contact; a cable disposed on the cable portion on the rear side of the housing, And a front plate disposed on the mating connector facing portion on the front side portion of the housing and surrounding the front portion of the housing, wherein the housing is interposed between the rear plate and the front plate, By at least one fixing member extending in the front-rear direction, It is positive.

In this aspect, the front plate is disposed on the mating connector facing portion of the front side of the housing and surrounds the front side of the housing. Further, the housing is interposed between the rear plate and the front plate, and the rear plate is fixed to the front plate by at least one fixing member extending in the front-rear direction in the housing. Thus, in the housing, the mating connector facing portion on which the contacts are provided can be completely covered by the face plate. Further, the front plate can be fixed by the fixing member and the rear plate. Before the secondary molding of the housing 2, the conductive tape is wrapped around the entire periphery of the main body except for the rear face and the front face of the primary molding body. With the above-described configuration, leakage of the electromagnetic wave from the housing is more reliably suppressed.

In addition, in the cable assembly with the connector according to another aspect, the fixing member is constituted by a pair of screw members disposed on both lateral sides of the housing, and the screw member is formed on the rear end side portion from the outside of the housing A male thread portion protruding from the rear plate to a rear side portion, a female thread portion formed on the front end side portion on the outer side of the housing and protruding from the front plate to the front side, And the screw member passes through the side plate through the lateral side holes formed at the corresponding positions and through the side plate formed at the corresponding position to the front plate. Therefore, by fastening a nut or the like onto the male screw portion on the rear end side of the screw member, the front plate can be fixed by the screw member and the back plate. Further, the male screw portion of the screw member of the connector of the corresponding mating side portion can be fastened to the female screw portion of the front end side portion of the screw member.

In addition, in a cable assembly having a connector according to another aspect, at least one lateral side opening and a screw member of the back plate and the front plate may be configured to prevent rotation of the screw member relative to the front plate and the back plate have. Thereby, when the male screw portion of the corresponding mating side connector is rotated, simultaneous rotation of the screw members relative to the front plate and the rear plate can be prevented. Thus, the reliability of coupling of similar connectors can be improved.

Further, in a cable assembly having a connector according to another aspect, a lateral opening formed on both lateral sides of the central opening and a central opening aligned with the cable opening may be formed on the rear plate. Thereby, the fixing member (screw member) can pass through both of the lateral side openings, respectively. Thus, the backplane can be configured as a single plate.

In addition, in a cable assembly having a connector according to another aspect, the housing is formed by a resin molding including a cable and a contact electrically connected to each other. When the housing is formed by resin molding to improve the durability, a soft resin may be used. Therefore, for example, when the screw member is to be fixed to the housing itself, there is a possibility that the housing is deformed by the rotational force. On the other hand, subduction can be suppressed in a configuration in which a repulsive force is obtained with respect to the housing via the housing between the rear plate and the front plate. In addition, by tightening the nut and the male screw portion of the screw member on the rear side of the rear plate, the force acting on the housing can be suppressed. Therefore, even when the housing is made of a soft resin, a sufficient amount of torque can be given to the screw member. Further, even when a manufacturing error occurs, handling for rework can be easily performed.

As described above, a cable assembly with a connector according to one aspect of the present invention includes a housing having a mating connector facing portion provided on the front side, a cable portion provided on a rear side where the cable opening is formed, A conductive contact disposed on the mating connector facing portion and engageable with a contact of the mating connector; a cable disposed within the housing through the cable opening and electrically connected to the contact; a cable disposed on the cable portion on a rear side of the housing, A front plate disposed on the mating connector facing portion on the front side of the housing and surrounding the front portion of the housing and a screw member disposed on both lateral sides of the housing, Through the lateral side openings formed at the corresponding positions of the front plate The screw member having a rear end side portion formed by a male threaded portion to secure the cap portion and the nut on the front end side portion formed by the female threaded portion while pressing the front plate, And the housing is interposed between the rear plate and the front plate.

In this aspect, the front plate is disposed on the mating connector facing portion of the front side of the housing and surrounds the front side of the housing. Further, the housing is interposed between the front plate and the rear plate, and the front plate is fixed to the rear plate by a screw member. Thus, in the housing, the mating connector facing side portion provided with the contact can be covered by the face plate. Further, the front plate can be fixed by the screw member and the rear plate. With the above-described configuration, leakage of the electromagnetic wave from the housing can be more reliably suppressed. Further, since the cap portion at the front end side portion of the screw member has the female screw portion, the male screw portion of the screw member of the connector at the corresponding mating side portion can be accommodated. Further, since the male screw portion of the rear end portion is fixed by the nut and the cap portion of the front end side portion can push the front plate, the housing can be sufficiently interposed between the back plate and the front plate. In this way, even when the male screw portion of the screw member of the connector in the mating side portion is fastened to the cap portion, since the housing, the front plate, the rear plate and the screw member are properly fixed to each other, Can be prevented.

A connector assembly according to one aspect of the present invention includes a housing having a mating connector facing portion provided on a front side portion and a cable portion provided on a rear side portion on which a cable opening is formed and a housing provided on a mating connector facing portion side of the housing And a rear plate arranged on the cable portion and arranged on the cable portion on the rear side of the housing and aligned with the cable opening, and a rear plate disposed on the mating connector facing portion on the front side of the housing, And the housing is interposed between the rear plate and the front plate, and the front plate is fixed to the rear plate by at least one fixing member extending in the front-rear direction in the housing.

In this aspect, the leakage of the electromagnetic wave from the housing can be more reliably suppressed in the same manner as the cable assembly with the connector described above.

The present invention is not limited to the above-described embodiments.

By way of example, in the above-described embodiment, the housing is formed by overmolding, but the housing may be formed in an envelope form. In this case, after the cable is connected to the contact, the housing is formed by interposing and covering the divided shell.

In the above-described embodiment, the edge portions 31, 32 parallel to each other of the side lateral openings 7b, 7c of the front plate 7 and the rotation stop portions 8D of the screw members 8, The rotation stopping structure is constituted by the surfaces 8b and 8b. However, the specific shape of the rotation stopping structure is not particularly limited, and when the rotation stopping portion 8D tries to rotate, rotation stop is prevented by interference with the lateral side openings 7b, 7c of the front plate 7 Any shape can be used as long as it is a shape to prevent it. By way of example, the lateral openings 7b and 7c and the rotation stop 8D may be polygonal like triangular shapes, or a shape such as a key groove may be used.

In the above-described embodiment, the rotation stopping structure is formed only on the front plate, but it may be formed on the rear plate, or on both the front plate and the back plate. Also, a rotation stop structure may not be provided. It may also be a shape for stopping the rotation of the shape of the lateral side openings 13a, 14a of the housing 2.

In the above-described embodiment, in the back plate, the central opening and the lateral side openings are respectively formed on the respective lateral side portions of the central opening. 7, the back plate has a pair of lateral side plates 66B, 66C respectively disposed on both lateral sides of the cable opening, and the lateral side openings 66b, 66c may be formed in the lateral side plates 66B, 66C, respectively. In this way, the lateral side plates 66B, 66C separated from each other can be disposed at positions corresponding to the lateral side portions 6B, 6C of the rear plate 6 described above.

In this manner, in a cable assembly having a connector according to another aspect, the rear plate has a pair of lateral plates disposed on each of the lateral lateral sides of the cable opening, and each lateral lateral opening has a lateral side plate As shown in FIG. In this way, by dividing the rear plate into a pair of lateral side plates, the shape of each single plate can be simplified.

2: housing, 3: connector
4: Cable, 6: Rear plate
7: front plate, 8: screw member (fixing member)
8A: cap portion, 8B: rear end portion
10: connector assembly, 11: matching connector facing portion
12: cable portion, 100: cable assembly with connector

Claims (8)

A cable assembly having a connector,
A housing having a mating connector facing portion provided on the front side portion and a cable portion provided on a rear side portion on which the cable opening is formed,
A conductive contact which is provided on the mating connector facing side portion of the housing and can be fastened to the contact of the mating connector,
A cable disposed within the housing through the cable opening and electrically connected to the contact,
A rear plate disposed on the cable portion on the rear side of the housing and aligned with the cable opening,
A front plate disposed on the mating connector facing portion on the front side of the housing and surrounding the front portion of the housing,
The housing is interposed between the rear plate and the front plate,
Wherein the front plate is fixed to the rear plate by at least one fixing member extending in the front-rear direction in the housing. The method according to claim 1,
The fixing member is constituted by a pair of screw members disposed on both lateral side portions of the housing,
The screw member
A male thread portion formed on the rear end side portion outside the housing and projecting from the rear plate to the rear side portion,
A female thread portion formed on a front end side portion of the outside of the housing and projecting from the front plate to the front side portion,
And a hook-up portion, at least a portion of which is disposed on an inner portion of the housing, while engaging the male screw portion and the female screw portion,
Wherein the screw member passes through the rear side plate through the lateral side holes formed at the corresponding positions and passes through the side side holes formed at the corresponding positions to the front plate. 3. The connector of claim 2, wherein at least one of the lateral side opening of the back plate and the lateral side opening of the front plate and the screw member are configured in a shape that prevents the screw member from rotating relative to the back plate and the front plate The cable assembly comprising: 4. The method according to any one of claims 1 to 3,
A central opening position aligned with the cable opening, and a lateral side opening formed on both lateral sides of the central opening, is formed on the backplane. 4. The method according to any one of claims 1 to 3,
Wherein the backplane has a pair of lateral side plates each disposed on both lateral sides of the cable opening,
Each lateral side opening being formed on a lateral side plate. 6. The method according to any one of claims 1 to 5,
Wherein the housing is formed by a resin molding comprising a cable and a contact electrically connected to each other. A cable assembly having a connector,
A housing having a mating connector facing portion provided on the front side and a cable portion provided on a rear side on which the cable opening is formed,
A conductive contact provided on the mating connector facing portion of the housing and capable of being fastened to a contact of the mating connector,
A cable disposed within the housing through the cable opening and electrically connected to the contact,
A rear plate disposed on the cable portion on the rear side of the housing and aligned with the cable opening,
A front plate disposed on the mating connector facing portion on the front side of the housing and surrounding the front portion of the housing,
A screw member disposed on both lateral sides of the housing,
The screw member
Through the lateral side openings formed in the corresponding positions of the back plate, through the lateral side openings at the corresponding positions of the front plate,
A cap portion on a front end side portion, which is formed by a female screw portion while pressing the front plate, and
And a rear end side portion formed by a male screw portion for fixing the nut,
Wherein the housing is interposed between the rear plate and the front plate. Connector assembly,
A housing having a mating connector facing portion provided on the front side portion and a cable portion provided on a rear side portion on which the cable opening is formed,
A conductive contact provided on the mating connector facing side portion of the housing and capable of being fastened to the contacts of the mating connector,
A rear plate disposed on the cable portion on the rear side of the housing and aligned with the cable opening, and
A front plate disposed on the mating connector facing portion on the front side of the housing and surrounding the front portion of the housing,
The housing is interposed between the rear plate and the front plate,
Wherein the front plate is fixed to the rear plate by at least one fixing member extending in the front-rear direction in the housing.

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